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Balancing a Human-Digital Workforce

Balancing a Human-Digital Workforce

Five years ago, Joe Peri was employee #2 at Ascension Health's captive BPO, the Ministry Service Center. Today, He is the Vice President and Chief Operating Officer, and the center has grown to over 900 employees. Joe pioneered the RPA practices which made this rapid growth possible, a subject he discusses in his summit session... and in this in-depth 12-page interview.

If you prefer to receive this via email contact Stephen.Aponte@iqpc.com.

Robots Are Coming: 7 Reasons Why Resistance is Futile

Robots Are Coming: 7 Reasons Why Resistance is Futile

The march of technology is inexorable, which is why we launched the Intelligent Automation in Healthcare Conference in the first place. If you still need proof that RPA will soon become the new normal, look no further.

If you prefer to receive this via email contact Stephen.Aponte@iqpc.com.

The Future of Robotic Healthcare Systems

The Future of Robotic Healthcare Systems

Did you know that a number of robotic and automation systems in the healthcare market are set to grow exponentially in the next few years as they become fully commercialized after being approved by the US Food and Drug Administration for operation? View this report to view the latest robotic healthcare systems that are set to launch in the near future.

If you prefer to receive this via email contact Stephen.Aponte@iqpc.com.

Dr. Robot: Robotics & Automation in the Medical Sector

Dr. Robot: Robotics & Automation in the Medical Sector

Robotics in the healthcare and pharmaceutical sector has a relatively long history, having started with a robot called the Puma 560 in 1985, according to All About Robotic Surgery. Now, however, a number of robotic and automation systems have been approved by the US Food and Drug Administration for operation in healthcare environments, and the market is probably set to grow exponentially in the next few years as they become fully commercialized. There is quite a lot of activity in the sector, which is why we thought we’d round up the companies which are either ready to launch robotic healthcare systems or have already introduced them.

If you prefer to receive this via email contact Stephen.Aponte@iqpc.com.

The Digital Health Revolution

The Digital Health Revolution

From remote monitoring to smart sensors and medical device integration, healthcare IoT has the potential to not only keep patients safe and healthy, but radically transform the way physicians deliver care as well. In fact, the IoT healthcare market is expected to reach $136.8 billion worldwide by 2021. With that in mind, we outlined the 3 key areas of IoT application within healthcare.

If you prefer to receive this via email contact Stephen.Aponte@iqpc.com.

Muyinatu Bell Shares Top Recommendations for Implementing Artificial Intelligence & Machine Learning Solutions

Muyinatu Bell Shares Top Recommendations for Implementing Artificial Intelligence & Machine Learning Solutions

In this keynote speaker spotlight, Muyinatu Bell shares her top recommendations for healthcare innovators implementing artificial intelligence and machine learning solutions. She also shares her thoughts on being selected by MIT Technology Review as one of 35 Innovators Under 35 in 2016, her thoughts on the next generation of healthcare, how intelligent automation technologies helped inspire her to develop innovative biomedical solutions, and what she hopes attendees will learn from her keynote session.

Dr. Bell is an Assistant Professor of Electrical & Computer Engineering with a joint appointment in the Department of Biomedical Engineering at Johns Hopkins University. She directs the Photoacoustic and Ultrasonic Systems Engineering (PULSE) Lab, a highly interdisciplinary research lab that integrates optics, acoustics, robotics, signal processing, and medical-device design to engineer and deploy innovative biomedical imaging systems that simultaneously address unmet clinical needs and significantly improve the standard of patient care. Dr. Bell completed a postdoctoral fellowship with the Engineering Research Center for Computer-Integrated Surgical Systems and Technology at Johns Hopkins University, obtained a PhD in biomedical engineering from Duke University, earned a BS in mechanical engineering (biomedical engineering minor) from the Massachusetts Institute of Technology, and spent a year abroad as a Whitaker International Fellow at the Institute of Cancer Research and Royal Marsden Hospital in the United Kingdom. She was honored by MIT Technology Review as one of 35 Innovators Under 35 in 2016.